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Georgia Connected Vehicles Connected Vehicles
Progress and Plans
OBU
OBU
PED
RSU
OBU
OBU
PED
RSU
V2X is this: Not this:
Point – to – point communications
Infotainment vs. Safety Critical
Source: Toyota InfoTech
To challenge state and local public sector transportation Infrastructure Owners and Operators (IOOs) to deploy DSRC infrastructure with SPaT (and MAP) broadcasts in at least one corridor or network (approximately 20 signalized intersections) in each state by January 2020
20 intersections in 50 states by 2020!
AASHTO SPaT Challenge
26 States Committed
450+ Signals Operating
3,800+ Signals Planned
Primary goal: Develop back-end infrastructure, network components, and business processes to support broad vehicle to infrastructure applications that is broadcast-medium agnostic, scalable, and sustainable. Secondary goal: Begin broad installation of available roadside units and on-board units to facilitate applications that improve safety and mobility.
Primary Application Spaces:
Mobility Safety Freight Partnerships
Pilot Deployment Objectives
Initial Deployment
Phase 1: Pilot – Active June 2018
• SR 141 (Peachtree) from SR 9 to I-285
• SR 8 (Ponce de Leon) from Peachtree to SR 42
• 54 traffic signals
• 12 ramp meters
• Signal Phasing and Timing (SPaT) • Red light warning
• Pedestrian in signalized crosswalk (in development)
• Phase termination/next signal phase
• Green-band speed (Green light optimal speed)
Phase 1 SPaT/MAP Applications
Red light warning Safety for drivers – alerts of inability to safely clear intersection
Pedestrian in crosswalk Safety for drivers and pedestrians –
turning vehicles have additional awareness of other users
Phase service remaining Efficiency for drivers – alert drivers
for safe intersection passage or efficient stopping
Green speed for coordinated signals
Efficiency for drivers – inform drivers of the optimal driving speed
through coordinated signals to minimize stops
ACTIVE RSUs IN METRO ATLANTA • SR 141 (Peachtree) – 39 intersections • SR 8 (Ponce de Leon) – 15 intersections • North Ave – 22 intersections (Renew)
GDOT CV Architecture • CV Application resides on signal controller
• No additional hardware (outside of RSU) required
• Open access to third parties
• Conformity to national standards and open access
ATC Signal Controller
CV App
NTCIP 1201 1202 1211
HTTPS/WS
Open Data API
HTTPS/WS
Signal Central System
HTTPS/WS
DSRC Radio
SAEJ2735
SPaT MAP BSM
BIM/RSM TIM
SAEJ2735
HTTPS/ JSON
Deployment
Deployment
Deployment
Phase service
remaining
Intersection name
Debug information
Minimum speed
required to clear green
Vehicle speed
Red light running warning
Validation and Testing • Properly formatted, J2735-compliant messages
• Ingress lanes that include a ConnectsTo but that egress lane is not defined (or is not defined as an egress)
• Ingress lanes that do not include a ConnectsTo
• Ingress lanes that do not include a signal phase/approachId
• Incorrect or missing ingress/egress definitions for each approach
• Overlap/underlap of lanes and widths
• Incorrect ‘ConnectsTo’ lanes
• General layout and structure of lane paths/geometries
• Signal phases being reported as “dark” or “unavailable”
• Correctness of the time remaining values
• Inconsistency of the reported minTime and maxTime (ie. min greater than max)
• Unexpected changes in minTime and maxTime
• Accuracy of the reported phase vs the actual signal
• Transmit rate of each message type
Project Challenges • Device interoperability
• Controller to RSU
• RSU to OBU
• OBU to OBU
• MAP message creation and validation
• Protected/permissive left turns
• Application deployments
• Security credentialing
• Data
• Limited fleet
• Regional communications network
• Technology risk and Spectrum Uncertainty
• Communications • ATC Signal
Controller • DSRC Radio
Scalable Deployment
Strategy
Broad deployment potential in
Georgia
Phase 2 Deployment
Phase 2 Deployment Phase 2: RTOP – June 2020 GDOT Investment + USDOT ATCMTD Grant • 1,600 traffic signals in metro Atlanta • 185 ramp meter locations • Regional deployment
• Not a pilot program: a deliberate inter-agency deployment across the entire metro Atlanta region
Interoperable Ecosystem
Transit Priority
V2V/V2I
Freight Priority
Road Weather
Work Zone
Preemption 0
Regional interoperability through standards-based, non-proprietary technology deployments
GA Connected Vehicle Ecosystem
Phase 2 Deployment
Phase 2.1: RTOP – Fall 2019 • Additional 600 of FY 2019 to be installed by Fall 2019 • 305 RSUs operational as of July 2019 • Connectivity on every major arterial in metro Atlanta • Open data stream to third parties also available
Emergency vehicle preemption
Preemption at select signals to improve emergency vehicle
response time
Transit signal priority Priority requests to signal
controllers for specific transit applications and routes
Freight signal priority Signal priority for freight vehicles that are operating in cooperative
platooning mode
ADDITIONAL APPLICATIONS
Phase 2 Deployment Est. FY 2019 (600) FY 2020 (1000)
RSU Equipment $780,000 $1,300,000
RSU Deployment $510,000 $850,000
RSU Configuration & Support $1,200,000 $2,000,000
ATCMTD OBUs (1000) - $1,000,000
TOTAL $2,490,000 $4,150,000 •1,600 Roadside units at $1,300 per device. Total: $6,640,000 •RSU deployment at $850 per location.
654 RSUs to be operational by Fall 2019
•RSU configuration at $2,000 per device.
•OBU costs at $1,000 per device (optional).
Phase 2 Deployment ATCMTD 2018
CV, AV, & CAV
Alan Davis, PE, PTOE Assistant State Traffic Engineer
404-635-2832 [email protected]